Brake



March 10, 1953 J. J. CARNES 2,630,885

BRAKE:

Filed March 28, 1950 5 Sheets-Sheet l FLJ.

J. J. CARNES BRAKE March 10, 1953 3 Sheecs-SheefI 2 Filed March 28, 1950 /477'0RNEYS J. J. CARNES March l0, 1953 BRAKE 3 Sheets-Sheet 3 Filed March 28, 1950 Patented Mar. 10, 1953 UNITED STATES PATENT QFFICE liclaims. (C1. 18s-78) (Grantedunder Title 35, U. S. Code (1952),

sec. 266) The, invention described herein may bemannfactured and used by or for the Government ior governmentalY purposes, without payment to me of any royalty'thereon.

In accordance with the present invention, there are provided certain improvements 1n brake mechanisms, and particularly improvements in brake' mechanisms that are intended for use as wheel-brakes of automotive vehicles.

There are employed for this purpose many different varieties of brake mechanisms, all of which, however, are modications of two types, one of which has the brake shoes anchored at the ends thereof, and the second of which types is a construction where the primary brake shoe is not anchored and presses against the secondary shoe.

In` the rst of the above types, the primary shoe is self-energizing, and does most oi the braking; and when the drum revolves in the reverse direction, the secondary shoe is self-energizing and does most of the braking. While it is important to have good brakes both when the vehicle is going forward and in reverse, this type of brake is open to the disadvantage that, in View of the fact that the greater portion of use of the brakes is while the vehicle is in forward motion, the lining of the primary shoe wears out first. K

Inl the second type'of brake referred to above, the` greater pressure is transferred to the secondarybrake shoe and therefore the secondary liningwears out before the primary shoe lining. Also, this second' type of brake is open to the disadvantage that, unless the brake shoes are in approximately exact adjustment, the brakes will lockk the wheels due to both shoes rolling with theY drum` The non-uniformity' of application of braking force between the brake lining and the brake drum is a universal fault in brake constructions, this resulting in uneven and excessive wearing of theY brake lining at the point of maximum braking contact with the brake drum, this localized wearing requiring comparatively frequent adjustment of the brakes and also relining of the brakes, even though only thelocalized area of' maximum contact oi the brake lining has become worn to an apprcciableextent.

In'an eiort to overcome this unequal braking Contact between the brake lining and the drum, it has been proposed to employ a construction wherein the brakingpower is applied to the ends of.- the brake shoes 130' apart, the other. ends of the brake shoes being anchored 180 apart.

This arrangement permits the. application of substantially equal braking engagement thorughout the length of the brake liningoneachshoe with the brake drum during forward. movement of the vehicle, but,v this form' of brake is found in practice to be ineffective in reverse (back.- ward) movement of the vehicle.

This fact enables this type; of` brake tolbel employed on the front axle of .thevvehicle but there is required another type of brakel fonthe-rear axle, such as a` brake wherein theheelof' each shoe is anchored, andY braking force-z is applied to the toe thereof.

The brake of. the present invention is: designed to overcome the, above-mentioned defects, by providing uniform pressure between each shoe and the drum; for. braking. forward movement of the vehicle, while also providing efficient braking action during. rearward. movement of the vehicle,` thereby eliminating the necessity of using different4 brake constructions on the front and rear axles of the vehicle, the improved brake.` of the present invention using all eightA shoes fory stopping the vehicle` in for'- ward. movement and four shoes.- in reverse, this being due tothe fact' that in the presentconstruction they secondary shoe functions efiecftively, no matter which may the drum rotates From the* foregoing` it. will be apparentV that the invention' has for.A oneofI its objects the pro,- vision of an improved brake constructionwherein the braking forcesA are distrbuted'against'the brake drum so as to obtaina substantially uniformv wearing on the brake lining.

A still further; object of the invention is to provide a structure wherein aV cam. action'isapplied to the heels of the brake shoes for. forcing the heels` of the-brake-shoesl against the brake drums simultaneously with application of` braking force at thetoes ofv the brake Shoes, thereby effecting the aforesaid substantially uniform application of. the brake` liningV to the brake drum with substantially'greater ease oiv applicationof the brake forces.

Further objects of the invention` will become apparent as the' description. proceeds, and the features of noveltyV will bepointedY out inl. particularity inL the appended claims.

The, invention'y will; befunderstood morev readily .by reference to. ther accompanying: drawings in which Fig. 1 is a front elevation of the improved brake construction of; the presentl invention, Y the view illustrating an' embodiment` in', whichv are present the features oftheA present .inventiongjhe cover of the brake drum housing being removed;

Fig. 2 is a transverse sectional elevation of the embodiment of Fig. 1, the view being taken on the line II-II of Fig. 1, looking in the direction of the arrows;

Fig. 3 is a fragmentary sectional elevation, taken on the line III-III of Fig. 1, looking in the direction of the arrows;

Fig. 4 is a further fragmentary sectional elevation, the view being taken on the line IV--IV of Fig. 1, looking in the direction of the arrows;

Fig. 5 is a view similar to Fig. 1, but showing a somewhat different embodiment of the invention from that shown in Fig. 1;

Fig. 6 is a fragmentary sectional elevation shown on the line VI-VI of Fig. 5, looking in the direction of the arrows;

Fig. '7 is a further fragmentary elevation, the view being taken on the line VII-VII of Fig. 5, looking in the direction of the arrows;

Fig. 8 is an enlarged detail view showing details of engagement of the brake shoes of Fig. 5 with their anchor bolts;

Fig. 9 is a fragmentary detailed view similar to Fig. 8, but showing a modified form of anchor bolt; and

Fig. 10 is a diagrammatic View similar to Figs. 1 and 5, but showing a further modiiication of the construction.

Referring more particularly to the drawings,

reference character A represents a brake housing mounted in the usual manner on a housing B of an axle of a vehicle, a brake drum C being mounted in the housing A for braking the axle in the usual manner for stopping either forward or rear movement of the vehicle.

Cooperating with the brake drum C are the brake shoes I0 and I 2, the brake shoe I 2 being the primary brake shoe, and the brake shoe IB being the secondary brake shoe. These brake shoes are mounted on the brake housing by a plurality of bolts I4, I6, the bolts I4 being located adjacent to the toes of the shoes, and are provided with eccentrics I'I to permit suitable adjustment of the brake shoes relative to the brake drum, while the bolts I6 are simply retaining bolts. The openings in the brake shoes for the bolts IB are larger than the bolt studs so as to allow the shoes Ill and I2 to be retained floatingly in position, for reasons hereinafter apparent. springs I5 are inserted around bolts I6 securing the shoes to housing A.

The primary actuation of the brake shoes ID and I2 is effected through actuating means Hi and 20, which are shown as being hydraulic cylinders spaced 180 apart, although the hydraulic means may be replaced by mechanical actuating means of conventional type, as will be well understood. The brake actuating means is and are shown as being connected to the toe portion of each brake shoe through connecting links 22 that are pivotally connected to the brake shoes as indicated at 24. These links 22 are pivotally connected to the actuating means I 8, 20, as is well known. The brake actuating means I8 and 20 act to press the toe portions of the brake shoes I0, I2 against the brake drum in a radial direction thereby enabling the use of longer brake shoes and additional lengths of linings for any given drum diameter than is usual.

Positioned adjacent to the heel end of each brake shoe, and positioned 180 apart, are anchor bolts 26, 28, which are rigidly mounted in the brake housing and secured immovably by lock nuts 30 threaded on the shanks 32 of these anchor bolts. The Shanks 32 of the anchor bolts pass through an enlarged opening 34 in the brake housing, being retained by a washer 3G which bears against the outside of the brake housing, and by a collar 33 which bears against the inner side of the housing A. An intermediate collar 40 seats an end of a lateral link member 42 of link 44, a washer 46 being interposed between the link member 42 and a complemental lateral link member 48 which is the other element of the link 44. The aforesaid assembly is maintained in position by a top washer 50 and a substantially U -shaped spring clip 52. Each washer i6 has oppositely disposed straight and substantially parallel portions 54 which serve as abutments for the cam ends 56, 5B', of the heel flanges 57, 57 of the brake shoes I and I2, it being recalled that in the showing of Fig. 1, the brake shoe l2 is the primary brake shoe and the brake shoe I! is the secondary brake shoe.

The cam ends 5S, 56' of the heel flange of the brake shoes are formed at an angle so that a wedging action is obtained on the heel portion of each brake shoe responsively to application of braking pressure upon the toe webs 6G, GU of the brake shoes for stopping the forward travel of the vehicle, thereby clamping a much longer arc of the brake linings 58, l5B', against the brake drum C, this wedging action of the heel webs of the brake shoes being due to the fact that during forward travel of the vehicle, the brake shoes le, l2 become displaced or drag bodily relative to the housing C by the forward speed and momentum of the vehicle and wheels thereof on which the brakes are mounted. The aforesaid wedging action of the heel webs of the brake shoes against the anchor bolts is effected, as has been indicated above, -by the application of braking forces applied to the toe portions Sii, S' of the brake shoes through actuation of the braking instrumentalities i8 and 26, which are disposed diammetrically oppositely as shown, and act radially on the toe portions of the brake shoes, the aforesaid drag of the vbrake shoes being one of the features of the present invention, the larger diameter of the holes for the retaining bolts enabling this displacement to occur, and the wedging action against the anchor bolts occurring responsively to deformation of the toe portions ESI, 6d' of the brake shoes. There results a much greater area of contact between the brake linings 58, 58 over both the toe and heel portions of the brake shoes than has been attainable heretofore. In order to assure proper contact between the cam surfaces of the iianges with the washers 16 of the anchor bolts 26, 2B, the heel portions of the brake shoe webs are extended as indicated at EI, 6I so as to be continuously in contact with the washers for suitably guiding the drag of the brake shoes for assuring applic-ation of the cam ends of the brake shoe flanges against these washers 46.

It will be understood that the action of the secondary brake shoe I@ during forward travel of the vehicle is the same as that described above, the actuation of the brake shoe I0 being simultaneous with that of shoe I2 and is effected through actuation of braking means 29, which applies braking pressure between the toe portion B0 of the brake shoe Ill and the brake drum C. The drag of the brake shoe I0 is against the anchor bolt 25, the cam surface 5t of the heel of the brake shoe I0 wedging the heel portion of the brake shoe against the brake 5. drumV Cas described above connection with theaction of the primarybrakeshce l2'. The wedging action'- of the heels ofthe brakeshoes againstI the anchor bolts is" dependent upon the angle ofinclination-of the cam ends fof the heels of" the brake shoes; The fact that both ends of the brake shoes are brought into'brakingaction engages amuch longer-efectivelarc of the-brake linings 53, 5B intobrakingcontact with the brake drunr C, than heretofore, thereby increasing ther eiciencyofv the brakingaction and lessening the amount of Wear'on localizedfareas ofthe brake linings.-

In the form of thev device shown in Figs. 1 through 4, a link member'V M has been referred to above which is composed of complemental lateralmembers'w and 481, andwhich maynow beu referred to in' its entirety. This link member connects-the anchor bolt 28 and the toe web 6d' ofthe` secondary brake shoe It), the link member having `a recessed end that iits around the shank 32fof the anchor bolt 28- and is-` pivotallyv connected to theV toe web 60' by' a pivot bolt connection 62. A similar link' 64, composed offcomplemental lateral link members 66v and Sii;y connects the heel portion orweb 5l of-the secondary brakeshoe lrwith the-toe webv of the primary brakeA shoe I2, a connecting bolt l receiving the recessed end 'IZ of the link 64, and a bolt 'Ik connectingl the opposite end of the link 6d to' the heel web 5l" ofthe brake shoe" I il, the bolt'connections 'I4 and1 'l0 pivotall'y connecting the link- 64: to' both brake shoes. The function of these links will be pointedV out hereinafter. Also, oppositelydisposed coil springs IB and 18 connect the heel portion of the secondary brake shoe I0 andthe toe portion of the primary brake shoe I2, and the toe portion of the secondary brake shoe I0' and the heel portion ofthe primary brake shoe I2, these springs lli` and 'I8y being normally under tension for maintaining the brake shoes- Iand I 2- a-Way from the brake drum C, so that the brakeis released, these springs being operative to release the brake shoes from braking engagement responsively to release of braking pressure on the braking instrumentalities ISand 2U.

The' operation of the brake duringl forward movement of the vehicle has been described, with the brake shoes l! and I 2' being operative for braking this forward movement of thevehicle, with the-heely and toe portions of the two'brake shoes'making' improved braking cont-act with the brake drum through deformation ofy the toeportions through 'braking pressure exerted by the braking means I8 and 2G; and through the camwedgingaction ofthe heel portions of the brake shoes againstl the anchor bolts 2B and 28. NOW, when the vehicle is in reverse movement, that is, the brake structure of Figs. 1 through 4 is rotating in counter-clockwise direction, braking pressure exerted on the brake shoes through braking instrumentalities- I8 and 2i) operates as follows:

When the brakev structure isrotating in counter-clockwise direction, the brake shoes tend to dragin the counter-clockwise direction andthe force of this drag will be transmitted from the primary brake shoe I Z'through linkv $4 to the heel portion 5l of thesecondarybrake shoe Iii, and alsothere will' be a transmission of a part of the braking pressure ony the toe portion t!! of the brake'shoe I2 through the'braking instrumentalities I8 through t-helink Sitothe'heel'portionbl' of the brake shoe Ill, for clamping theheel' portion oftherbrake shoe laagainst'the-.brake drum C; at the same time: that' the: braking-instru;- mentalities 20. are.'applyingbrakingv pressure to thetoel portion of the brakeshoe I @,this braking pressure being enhanced bysthefpressuref off; the dragof the brakeshoe Iii that:` is effected onthe ltoe web 6B' of the brakeshoe, l0, caused bythe resultant of.I this: pressure transmitted. through link M.. against theanchor. bolt 28;

From the foregoing iti-will bevseen thatin'brak.- ing'forward movementr ofthe vehicle,Y both brake shoes Iiil and i2? are effective, andzthe brakeline ings 58 and" are brought'into braking. engagement with the brakedrumC througha long; arc adjacent to both ends lofthe brakelinings', 4pro.- ducing eective. braking action; and muchgmore uniformly distributed; Wear on; the .-brakealinings than heretofore has:` been.V attainable; and" this action is coupled` bythe, factzthat,` in. braking rearward movement ci the vehicle; whichv ob'.- viously does notinvolvethe arduous service that is encountered lin thefforward movement. ofthe vehicle, effec-tive braking-is attained throughthe secondary brake shoe; thebrake liningof which is4 brought into braking engagement with the drum through along. arc adjacent to'both ends of thebrake shoe. It willi be. seen that thebrakfing forces areY applied at points degrees'apart, and act outwardly towards the brake drum in radial directions, thereI being' facilitated:I thei-at.- tainment of the improved results of the present improved constructionbythis disposition ofthe parts for obtaining oppcsitely. directed; radially acting braking forces.

Similar resultsare obtained by the construction illustrated in Figs. 5 through8, which diiers from the modication of- Figs. I throughA 4 in that the heel portions of the brake shoes bear against the Shanks of the anchor bolts, thereby eliminating the washers provided in the aforesaid'modication, thereby simplifying the construction of the.

anchor bolts; andY also the pressure-transmitting links of the modification of Figs; 1' through-4, .are eliminated by the modification of Figs. 'through 8l Otherwise, theconstruction andfoperationare the same as has been described above'.

In Figs. 5 through` 8; the samev reference charactershave been used as .in Figs; 1 through. 4 to indica-te the similar parts. As in'thecase of Figs. l through 4, the construction of'Figs; 5 through-8 includes aprimary brake shoe IZTanda secondary brake shoe Ii?, and forward movement. of' the wheel is in clockwise direction. The brake shoes IB and I2 are mounted on boltsls and I6', which are entirely similar tothe corresponding bolts -of the procedingly described modification'. The bolts I 4' permit adjustment of thebrake shoes relative to the brake drinn C` as previously described. As in the previous" modification, the holes for the bolts Iii through `the brake shoes-are substantially largerv than the Shanks of the bolts which mount sinallisprings l5v between the web of theshoes andthe bolt headswhich cause the shoes to be pressedagainst housing A' and permit the brake shoes i ih I2. to drag in the directionof the forward rotation (clockwise asv shown in the drawings) and engage the heel pcrtions''l, 51" of the brakel shoes directlyl against theseanchor bolts, the ends 56, 56' of the brake'shoesfbeing formed at an angle so that the brake-shoes be'- come wedged incidentl'y to f applicationof vbraking pressure through braking means. I 3', 29' against the toe portions 5t, (iVofthe'brakesh'oesz I2 and IU.' It will be seenv from'- thedrawings thaathe secondary. brake shoe te has its. toeI end. recessed to t around the anchor bolt 28. The anchor bolts 26 and 28 are held in place by washers 82, 84 on the bolt studs and by look washer assemblies 86, and locked in place by a lock nut 88 bearingr against a washer 90 and reinforcement 92 of housing A. In the form of anchor bolts shown in Figs. 6 and 7 removal 4thereof is accomplishable by removing nut 38 and slipping the bolts out of their respective washer assemblies in a manner which will be self-evident from the drawings. In Fig. 9 there is shown a somewhat modified form of anchor bolt wherein the bolt stud is formed somewhat eccentrically so -that by the application of a suitable wrench or other suitable tool to end 81 of the stud or shank of the bolt and by exerting a turning movement thereon, an adjustment oi the ends of the brake shoes adjacent to the bolts relative to the brake drum for compensating wear on the brake shoes may be effected. In the form shown in Figs. 6 and 7 such compensating adjustment is not contemplated, the end 8l in this instance forming an end stop for engagement of a tool employed for knocking the bolt loose after the nut B3 has been removed, for protection of the threads for the nut 88 against accidental damage incident 4to removal of the bolt. Coil springs Bd, 86 interconnect the primary and secondary brake shoes as shown, and release the same from braking position responsively to release of braking pressure from braking means The action is the same as in the foregoing modification. When the vehicle is moving forwardly, the brake shoes IB, I2 are dragged into engagement with the anchor bolts 26, 28. When braking pressure is applied through braking means I8, 2G to the toe portions 6%, 69' of the brake shoes I U, l2, the engagement of the heel portions 5l, 51 of the brake shoes with the anchor bolts causes the outwardly beveled ends 56, 5S of the brake shoes to be wedged outwardly, thereby eiecting braking engagement between the brake linings 58, 58 against the brake drum C over a substantial length of each brake lining from each end thereof, thereby eiecting an eicient braking action with minimized wear as compared with the usual form of brake construction. During the braking action both springs 94 and 96 are expanded, release of braking pressure enabling these springs to return to their former position or condition, thereby pulling both heel and toe portions of the brake shoes away from braking position.

Reverse movement of the vehicle (counterclockwise rotation of the structure as viewed on Figs. 5 through 8) causes the brake shoes to drag in the reverse direction, causing separation of the cam surfaces 5G, 5S from their respective anchor' bolts, and seating the recessed end 8G of the brake shoe I0 against the anchor bolt 28. It will be noted that the toe portion 60 of the brake shoe i2 and the iiange of the brake shoe I6 are extended until they are closely adjacent, as will be apparent from Fig. 5, the portion 9B representing extension of the ange of the brake shoe Ill. The brake shoe Ill is restrained against dragging by the seating of the recessed end 8G against the anchor bolt 28, so that the brake shoe I2 contacts with the ange portion 93 so that the distortion of the brake shoe I2 upon application of the braking pressure through braking means I8 is transmitted to the end 98 of the flange of the brake shoe ID, thus clamping the heel portion of brake shoe I0 against the brake drum C, thereby clamping the corresponding portion of* the'brake lining 53 into braking engagement with the brake drum; and simultaneously therewith the toe portions of the brake shoes I0 and I2 are distorted to clamp the corresponding portions of the brake linings 58' against the brake drum C, by action of the braking means I8 and 20.

It will be seen, therefore, that, in reverse, the braking action is eiected throughout an arc of brake lining 58' which corresponds to the toe portion of the brake shoe I2, and throughout arcs of brake lining 58 that correspond to the toe and heel portions of the brake shoe i0, thereby eiecting a more uniform distribution of wear than heretofore accomplishable, while effecting an cicient braking action.

In both of the illustrated embodiments of the improved construction, during forward movement of the vehicle both brake shoes in each brake construction become effective throughout the major portions of their arcs, with correspondingly increased areas of contact between the brake linings and the brake drum, thereby minimizing or entirely eliminatingr localized wear on the brake linings; while when the vehicle is in reverse, a prolonged arc of the brake lining corresponding to the toe portion of the primary brake shoe and increased arcs of contact between the brake lining of the secondary brake shoe corresponding to the toe and heel portions of the secondary brake shoe are eiective for braking. Therefore, the same brake is effective for braking in either forward or reverse movements of the vehicle, while localized areas of wear on the brake linings are obviated, therebymaterially lessening the frequency at which the brake linings require to be renewed while substantially increasing the effectiveness of the brake structure in a novel manner. It will be apparent that in both illustrated forms of the invention the brakeapplying instrumentalities are oppjostely disposed and radially acting; and also the anchor bolts for eiecting the wedging deflection of the ends of the brake shoe are diammetrically oppositely disposed.

There is shown in Fig. l0 a still further modied form of construction incorporating a different embodiment of braking means interconnecting the iixed anchor bolts 26 and 28 which are permanently or non-adjustably mounted, and the heel portions of the brake shoes I2 and IU, the heel ends 56, 56 terminating short of the anchor bolts, braking pressure between the anchor bolts 26 and 28 and the heel portions 5l, 57 of the brake shoes being transmitted by the provision of link arms It, IBZ. One end IM, I 06 of the respective link arms forms a yoke that fits around the respective anchor bolts 2S,

V28; and the opposite ends IOS, Iiil of the link arms are secured to the heel portions 57, 5l through pivot pins or bolts I I2-, Il@ that pass through the brake shoes as shown, so that when braking pressure is applied to the toe portions 60 and 60' of the brake shoes through actuation of the braking means IB and 20, the heel portions 5l, 5l of the brake shoes and the brake linings 58, 58 carried thereby, will be forced into braking engagement with the brake drum C in a manner similar to that described above, during forward movement of the vehicle when the brake drum is rotating in clockwise direction as indicated on Fig. l0, as the drag of the brake shoes I2 and I8 is exerted against the anchor bolts 28 and 26 through the links I02 and |00,

respectively.

In reverse direction, when braking pressure is applied to the toe portions `(it and 66' of the brake shoes and the Ydirection of the drag is in counterclockwise direction as viewed in Fig. 10, braking pressure is transmitted from the toe portion 50 of the secondary shoe IB to the heel portion-l of theprimary shoe i2 through a further link H6 that .is connectedbetween a pin or bolt H8 adjacent to the toe portion Sii of the secondary brake shoe iii and the pivot bolt lid on the heel portion 5l of the primary brake shoe I2, this action clamping the heel portion of the brake shoe i2 and the lining against the brake drum C simultaneously with braking application of the toe portion S9 of the primary brake shoe i2 and lining 58 against the brake drum C. Therefore, in forward movement of the vehicle and rotation of the brake drum in clockwise direction as viewed in Fig. 10, both brake shoes i2 and le are effective throughout the major portions of their length, whereas in reverse direction (counterclockwise rotation as `viewed in'Eig. l0),`both the toe portion Se' of the secondary shoe it and substantially the entire length of the primary brake shoe i2 are eifective for braking.

It kwill be apparent, therefore, that ythe action of the modification of Fig. 10 is exactly the same asin the embodiments of the construction described in connection with Figs. 1 and 5. The distance at which the pivot bolts i id and H2 are located frornthe heel ends 5S and 56 of the respective brake .shoes i2 and it determine the length of the arcs of the heel portions of the brake shoes that will be applied to the brake drum.

Gn Fig. lo the .remainingparts of the construction that correspond .to Vthe parts shown on Figs. 1 `and 5 are identified by the same reference characters as applied to these views and described above herein in connection therewith. Coil springs i2@ and 22 connect the brake shoes and normally retain the brake shoes in inoperative position. rlhese springs are diametrically 0ppositely disposed, and act on the brake shoes at points 180 apart.

It will be apparent from the foregoing description that in all forms of the brake, each brake shoe has maximum braking forces applied thereto at a plurality of points, namely, at vboth the toe and heel portionso'f the brakeshoes, and with respect .to the brake shoes, the maximum braking forces are applied in a substantially radial direction at points 180 apart, thus assuring equal application of the braking forces to 'the 'axles of the vehicle, thereby assuring even braking ofthe axles without tendency to distortion thereof; and in forward motion of the vehicle, both brake shoes are equally eective through the maximum portions of .their length so that localized areas of wear on the brake linings are minimized. In reverse movement (rearward travel) of the vehicle the primary brake shoe i2 is effective throughout substantially the entire length, together with the toe portion of the secondary shoe ld as will become apparent from' the foregoing description.

'In'the modification shown in Fig. 10, a link i213 is provided to connect the toe portion of the brake shoe i2 and anchor bolt 2E for preventing dragging of the brake shoe relative tothe housing A during counterclockwise rotation of the housing, the link 24 being pivotally mounted-on the brake shoei 2 by a pivot bolt 26 mounted inthe link H24 at `one end thereof,'the opposite end 12B forming a yoke fitting around the anchor 'bolt -25 for stopl0 pinganytendency of the brake .shoe I2 to oat or 'to ,drag during .counterclockwise rotationlof the'brake housing.

AThe present c'onstructi'on'is an'impro-vementin both its illustrated'embodiments overthat-shown in the previous United States Letters `Patent No. 2,287,023 issued.June^23, 1942, to James J. Carnes.

'Having `Vthus describedmy invention, what ivI claim'asnew and Wish tosecure'bv Letters Patent ist l. A brake vconstructicm comprising a `backing plate, a-brake-drum enclosing the backing plate, a primary braking vshoe carried by Vthe Lbacking plate, a secondary braking shoe valso carried *by the backing plate, the said -shoes `being of oppositely disposed, generally 'arcuate shape and having Va toeiportion and a-hee1 portion, the toe portion of the primaryshoe being disposedoppositely lto and adjacent to the heel `portion of the fsecondary'shoe, andthe heel-portion of the primary shoe being disposed 'oppositely to and adjacent :to vthe Atoe portion of the "secondary shoe, a brake Vlining lmounted on each brake shoe, .thesaid shoes being .operable responsively toiapplication of braking forces'againstthe'brake shoes for .frictionally engaging the 'brake Vlinings againstthe brake drum, oppositely disposed, `radially directed brake-actuating 'means for the shoes, means pivotally connecting the brake-actuating'means -with'the'toe portions of .thebrake shoes, oppositely disposed anchormeans carried by the backing plate and 'mounted 'adjacent'to the heel ends of the shoes, 'the .said :ends being angularly outwardly tapering relativeto 'the `anchoring means for effecting a wedging cam. action between the heelfportions of thebrake 'shoes and the brake drum for forcing the ,bra-'ke linings into braking engagement with Vthe brake drum responsively to application of 'braking Jforces "to the toe kportions of the brake shoes, 'means enabling the brake shoes to drag relative to the brake drum and against the anchor means dur-` ing forwardrotation of 'the'brake drum Vwhen the brake shoes are inactive, whereby Vradial apn plcation of braking .forces "to the toe V'portions of the brake shoes causes the heel portions of the rbrake shoes to be' "forced against 'the brake drum .by .the anchor means ior applying the brake linings Lto the VbrakeA drum over lextensive lengths thereof l'for obviating Llocalize'd 'wearing of the brake linings, means .interconnecting each toe-portion of one of .thershoes'to .eachheel portion of theother o'f Lthe shoes 'for vreturning lthe brake shoes and .brake linings to inactive position responsively to v.release .of the .brakingforces' applied thereto, ,means .effective `responsively to. rearward rotation .of .the brake fdrum for 'transmitting .braking .pressures from .the '.toe .portion of the `primary shoe to the heel portion .of .the secondary shoe, and `means coacting` with '.the brake-actuating means vfor Vthe secondary .shoe andacting in .conjunction therewith for Vforcing the toe ,portion of .the secondaryfshoe vintobraking engagement with the brake drum, .whereby upon forward movement of thejbrake .the theel and toefportions of both brake shoes Vare effective for braking vthe forward movement `of a vehicle on which the brake is installed, while during rearward movement of the vehicle, the 'toe portion of theprimary brake shoe and bothheel and toe portions of the secondary shoe are effective for braking the rearward movement of the'vehicle.

2. A brake construction comprising a-backing plate, a brake drum enclosing the lbacking plate,

a primary braking shoe carried by the backing plate, a secondary braking shoe also carried by the backing plate, the said shoes being of oppositely disposed, generally arcuate shape and having a toe portion and a heel portion, the toe portion of the primary shoe being disposed oppositely to and adjacent to the heel portion of the secondary shoe, and the heel portion of the primary shoe being disposed oppositely to and adjacent to the toe portion of the secondary shoe, a brake lining mounted on each brake shoe, the said shoes being operable responsively to application of braking forces against the brake shoes for frictionally engaging the brake linings against the brake drum, oppositely disposed, radially directed brake-actuating means for the shoes, means pivotally connecting the brake-actuating means with the toe portions of the brake shoes, oppositely disposed anchor means carried by the backing plate and mounted adjacent to the heel ends of the shoes, the said ends being angularly and outwardly tapering relative to the anchoring means for eiecting a wedging cam action between the heel portion of the brake shoes and the brake drum for forcing the brake linings into braking engagement with the brake drum responsively to application of braking forces to the toe portions of the brake shoes, means enabling the brake shoes to drag relative to the brake drum and against the anchor means during forward rotation of the brake when the brake shoes are inactive, whereby radial application of braking forces to the toe portions of the brake shoes causes the heel portions of the brake shoes to be forced against the brake drum by the anchor means for applying the brake linings to the brake drum over extensive lengths thereof for obviating localized wearing of the brake linings, means interconnecting each toe portion of one of the shoes to each heel portion of the other of the shoes for returning the bra-ke shoes and brake linings to inactive position responsively to release of the braking forces applied thereto, link means connecting the toe portion of the primary shoe to the heel portion of the secondary shoe, the said link means becoming eiective responsively to rearward rotation of the brake for transmitting braking pressures from the toe portion of the primary shoe to the heel portion of the secondary shoe, and additional link means connecting the anchor means adjacent to the tapered cam end of the primary shoe and the toe portion of the secondary shoe, whereby, upon forward movement of the brake, the heel and toe portions of both brake shoes are eiiective for braking the forward movement of a vehicle on which the brake is installed, while during rearward movement of the vehicle the toe portion of the pirmary brake shoe and both heel and toe portions of the secondary shoe are effective for braking the rearward movement of the vehicle, the additional link means reinforcing the braking force applied to the toe portion of the secondary shoe for braking the said rearward movement of the vehicle.

3. A brake construction comprising a backing plate, a brake drum enclosing the backing plate, a primary braking shoe carried by the backing plate, a secondary braking shoe also carried by the backing plate, the said shoes being of oppositely disposed, generally arcuate conguration and having a toe portion and a heel portion, the toe portion of one of the shoes terminating adjacentto the heel portion of the other of the said shoes, a friction brake lining mounted on each brake shoe and terminating short of the ends of each shoe, the said linings being adapted to be braked against the brake drum responsively to application of braking pressures to the brake shoes, oppositely disposed, radially acting brake-actuating means for the shoes, means pivotally connecting the oppositely disposed brake-actuating means to the toe portions oi the brake shoes, oppositely disposed anchor means carried by the backing plate and positioned adjacent to the heel portions of the shoes, means for producing a relative camming wedge action between the anchor means and heel portions of the brake shoes for eecting a wedging of both heel portions of the brake shoes and the brake linings carried thereby into braking engagement with the brake drums responsively to application of oppositely directed, radially acting braking forces to the toe portions of the brake shoes for applying the brake linings to the brake drum throughout extensive lengths thereof adjacent to both the toe and heel portions of the brake shoes, thereby minimizing localized wear on the brake linings arising from braking of forward motions of a Vehicle on which the brake is mounted, and means for transmitting braking pressure from the toe portion o1" the primary shoe to the heel portion of the secondary shoe responsively to application of radially directed braking forces to the toe portions of both shoes for effecting a braking movement of both the toe and heel portions of the secondary shoe and the toe portion of the primary shoe for braking rearward movement of the vehicle.

4. A brake construction comprising a backing plate, a brake drum enclosing the backing plate, a primary braking shoe carried by the backing plate, a secondary braking shoe also carried by the backing plate, each of the shoes having a toe portion and a heel portion, the vtoe portion of one of the shoes terminating adjacent to the heel portion of the other of the said shoes, a friction brake lining mounted on each brake shoe and adapted to be braked against the brake drum responsively to application of braking pressures to the brake shoes, oppositely disposed, radially acting brake-actuating means for the shoes, means pivotally connecting the oppositely disposed brake-actuating means to the toe portions of the shoes, oppositely disposed anchor means carried by the backing plate and positioned adjacent to the heel portions of the shoes, and means for producing a relative camming Wedge action between the anchor means and heel portions of the brake shoes for effecting movement of both heel portions of the brake shoes and the brake linings carried thereby into braking engagement with the brake drum responsively to application of oppositely directed, radially acting braking forces to the toe portions of the brake shoes throughout extensive lengths thereof adjacent to both the toe and heel portions oi the brake shoes, thereby minimizing localized wear on the brake linings arising from braking of forward motions of a vehicle on which the brake is mounted, the toe portions of the primary brake shoe contacting the heel portion of the secondary shoe during backward movement of the vehicle for eiecting a braking movement of the heel portion of the secondary shoe responsive to application of braking pressures to the toe portion of both shoes, thereby braking backward motion of the vehicle with the toe portion of the primary brake shoe and 13 both'the heel land toe v'portionsof thef'secondary brake shoe.

5. A'brake construction comprising na backing plate, a brake drum enclosing the backing plate, a primary braking shoe carried by the backing plate, a secondary braking shoe also carried yby the backing plate, each of the 'shoes having a toe portion anda heel portion, the heel-portion of one of the shoes terminating adjacent'to the toe portion of the other shoe, oppositely disposed, radially-acting brake actuating means for `the shoes, a brake lining carried by the Y'brake shoes, means "connecting the brake-actuating means to the toe portion of the brake shoes, oppositely disposed anchor means lrigidly carried *by 'the backing plate and disposed adjacent `to the Aheel portions of the brake shoes, link means'interconnecting the heel portion of one'of the brake shoes 'and Ythe toe vportion of the'other shoe, means floatingly connecting the Ybrake vshoes to the backing plate for enabling longitudinalshiftingof the brake shoes relative to the ubrakedrum and backing `plate in a A'direction 'corresponding to direction of rotation of the brake drum, and means coacting between the Aanchor bolts and the heel portions 'of the `brake shoes iforeffecting a radial braking nmovement of the heel'portions or" *the brake shoes and braking lining thereon through abnormally long arcs 'against the brake drum responsively to application of radially acting Abraking 'forces against the toe portions ofthe brake shoes responsively to braking application of the said oppositely disposed brake-acting means.

6. A brake construction comprising a backing plate, a brake drum enclosing the backing plate, a primary braking 'shoe carried yby Ythe Vbacking plate, a secondary braking vshoe also carried by the backing plate, each ofthe Yshoes having a toe portionrand a heel portion, means connectingthe braking shoesto the backing plate while permitting limited longitudinal 'bodily disp-laceinent of the braking shoes relative "to the brake drum and backing plate corresponding to directionand'rotation of the brake'drum, oppositely disposed, radially-operating brake actuating means for the brake shoes mounted adjacent to the toe portions of the brake shoes, a'brake lining carried by the brake shoes, *means radially connecting'the brake-actuating means to the toe portionsof the brake shoes, whereby upon actuation of the brake-actuating means, thetoe portions of `the brake Ashoes and brake lining are 4pressed radially into braking engagement with the brake drum, the said heel'portion of one oi the brake shoesterminating adjacentto the toe portion of the other brake shoe, the said 'brake shoes extending through arcs approximately but Ajust'short'of `v180" in length, additional braking means `mounted Vonthe backing plate adjacent'to the heel portions of Ythe shoes and in a line passing between the heel terminus Yof one braking shoe and kthe adjacentto'eterminus ofthe other shoe, the said 'additional braking means being disposed '180 apart, andmeans coacting between the said additional braking means andthe a'djacent heel portion of the braking shoes vfor radially forcing the heel portions of 'the .brake shoes into Vbraking engagement with the brake drum through arcs of substantial lengths re- `sponsively t-o application of radial brakingrforces lto -toerportions of the brake shoes bythe "firstmentioned radially operating Abrake-actuating means.` j j '7. Ai-brake construction comprising a backing plate, V4a VVbrake drum enclosing .tne'backingfplate. a "primary braking shoe carried by thebacking plate, a secondary 4braking Vshoe alsol carried by the backingplate, each-ofthe shoes havingv a toe portion land 'a heel portion, oppositely disposed, radially -acting brake-actuating means ,connected to the 'toe portion of the shoes. means loatingly connecting the brake shoes to thel backing 4plate While enablingV bodily longitudinal shifting of the brake shoes relative `to the Vbrake drum vand backing plate in a direction :corresponding to direction rof Vrotation of the brake drum, -an anchor bolt carried by the backing plate for engagement with 4the-end of the l-heel portion of each shoe, the -end 'ofthe heel .por-tion beingangularly disposed relative to fits anchor boltin a direction such aste-cause a camiaction between -theend of -thevheelportion of the shoe and its -anchor bolt lfor 'forcing ythe heel vportion ofthe Abrake shoes into the brake fdrum responsively toapplication ofbraking pressures Ltoithe toe portions `ofthe shoe for radially forcing the toe portions into the brake drum whenthebrake drum is rotating in a direction from `the ltoe of the brake shoetoward the heel portiono'f the brake shoe.

v8. Abrake construction comprising abacking plate, `a brake drumenclosing the backing plate, brake shoe means carried by the backingplate, means floatingly Aconnecting the brake shoe means tothe backing fplate for enablingbodily longitudinal ydisplacement of Vthe Vbrake shoe means `relative to the backingplate in a direction conforming-to thedirection ofthe rotation of the brake drum, anchor means for the brake shoe means carried'by the backing plate forengagement With an -end of the brake shoe means, the said end of the brake shoe"means -being adapted to press 'against the-anchor vmeans responsively yto application of radially directed braking forces to the brake shoe means, the said endv of the brake shoe means being angularlydisposed relative to the anchor means in a direction adapted to imparta wedging action between the brake shoe means andthe brake drum responsively to-application of -the` braking forces to thebrake shoe means when the brake drum is rotating in adirection such that the 'braking 'fforces vare applied toward lthe said end vof the j 'brake shoe means infengagement with lthe -anchor means.

i9. A 'brake V` construction comprising a lbacking plate, a'brake drum enclosing the backing plate, brakeshoe means carried by the backing plate, vmeans floatingly connecting the brake shoe 'means to the backing plate forenabling bodily longitudinal displacement of the brake shoe means relative to the backing plate in `a direction conforming to the direction of "rotation of the brake drum, vanchor means for the lbrake vshoe means carried'by thebacking plate Ymeans in engagement vwith 'the' anchor means,

'15 andmeans for adjusting the anchor means and brake shoe means relative to the brake drum for compensating for wear between the brake shoe means and the brake drum.

10. A brake construction comprising a backing plate, a brake drum enclosing the backing plate, a primary braking shoe carried by the backing plate, a secondary braking shoe also carried by the backing plate, each of the shoes having a toe portion and a heel portion, means floatingly connecting the brake shoe means to the backing plate for enabling bodily longitudinal displacement of the brake shoe means relative to the backing plate in a direction conforming to the direction of rotation of the brake drum, oppositely disposed,` radially-operating brake-actuating means for the brake shoes mounted on the backing plate adjacent to the toe portions of the brake shoes, a brake lining carried by the brake shoes, means radially connecting the said brake-actuating means to the toe portions of the brake shoes, whereby upon actuation of the brake-actuating means the toe portions yof the brake shoes and brake lining are pressed radially into braking engagement with the brake drum, the heel portion of one of the brake shoes terminating adjacent to the toe portion of the other brake shoe, additional braking means mounted on the backing plate intermediate the heel terminus of one of the shoes and the toe terminus of the other braking shoe, linkage means including a link arm connecting the additional braking means to the heel portions of the braking shoes for radially clamping the heel portions of the braking shoes and brake lining into braking engagement with the brake drum responsively to application of braking forces to theitoe portions of the brake shoes by the first-mentioned brake-actuating means, and

yieldable means normally urging the brake shoes f out of braking engagement with the brake drum.

ll. A brake construction comprising a backing plate, a brake drum enclosing the backing plate, a primary braking shoe carried by the backing plate, a secondary braking shoe also carried by the backing plate, each of the shoes having a toe portion and a heel portion, means floatingly connecting the brake shoe means to the backing plate for enabling bodily longitudinal displacement ofthe brake shoe means relative to the backing plate in a direction conforming to-the direction of rotation of the brake drum, oppositely disposed radially operating brake-actuating means for the brake shoes mounted on the backing plate adjacent to the toe portions of the brake shoes, a brake lining carried by the brake shoes, means radially connecting the said brake-actuating means to the toe portions of the brake shoes whereby, upon actuation of the brake-actuating means, the toe portions of the brake shoes and brake lining are pressed radially into braking engagement with the brake drum, the heel portion of one of the brake shoes terminating adjacent to the toe portion of the other brake shoe, additional braking means mounted on the backing plate intermediate the heel terminus of one of the shoes and the toe terminus of the other shoe, linkage means connecting the additional braking means to the heel portions of the braking shoes for radially shifting the heel portions of the braking shoes and brake lining into braking engagement with the brake drum responsively to application of braking forces to the toe portions of the brake shoes by the firstmentioned brake-actuating means, and oppoi6 sitely disposed spring means interconnecting the brake shoes normally holding the brake shoes away from braking engagement with the brake drum.

12. In a brake, a substantially circular brake drum, primary and secondary brake shoes adjacent to the brake drum, the shoes having toe and heel portions and an outer arcuate surface for carrying brake lining adapted to be urged into engagement with the brake drum, the shoes being arranged in heel to toe relation, means operatively connected to the shoes adjacent to their toe portions and adapted to urge the lining on the surface adjacent to the toe portions into engagement with the drum, means mounting the shoes adjacent to the drum, said mounting permitting limited planar floating movement of the shoes relative to the drum, a rst cam means positioned adjacent to the heel of each shoe, the heel of each shoe having a second cam means adapted to engage the rst cam means for urging the shoe heel toward the drum when the shoe is urged toward the first cam means, a rst link pivotally connected to the toe of the secondary shoe and to a post adjacent to the heel of the primary shoe, a second link pivotally connected to the toe of the primary shoe and to the heel of the secondary shoe, and means urging the shoes toward each other and out of engagement with the drum, whereby during rotation of the drum in one direction and engagement of the toe portions therewith the shoes will be urged through frictional engagement with the rotating drum toward the first cam means. the second cam means engaging said first cam means Vand urging the shoe heels toward the drum, the rst link limiting movement of the secondary shoe in the other direction, the toe of the primary shoe acting through the second link during such movement of the drum in the other direction urging the heel of the secondary shoe into engagement with the drum.

13. In a brake, a substantially circular rotatably mounted brake drum, primary and second- .A ary brake shoes adjacent to the brake drum, the

shoes having toe and heel portions and an outer arcuate surface for carrying lining adapted to be urged into engagement with the brake drum, the shoes being arranged in heel to toe relation, means operatively connected to the shoes adjacent to their toe portions and adapted to urge the lining on the surface adjacent to the toe portions into engagement with the drum, means mounting the shoes adjacent to the drum, said mounting means permitting limited planar floating movement of the shoes relative to the drum, a rst cam means positioned adjacent to the heel portion of each shoe, the heel portion of each shoe having a second cam means adapted to engage the rst cam means and urge the heel portion toward the drum when the shoe is urged toward the rst cam means, whereby during rotation of the drum in one direction and engagement of the toe portions therewith, the shoes will be urged through frictional engagement with the rotating drum toward the rst cam means. the second cam means engaging said rst cam means and urging their associated heel portions into engagement with the drum, stop means adjacent to the toe portion of the secondary shoe for limiting movement of the secondary shoe in the other direction, the toe portion of the primary shoe acting on the heel portion of the secondary shoe during such movement of the drum inthe other direction to urge the heel portion` of 17 the secondary shoe into engagement with the drum.

14. In a brake, a rotatably mounted brake drum, primary and secondary brake shoes adjacent to the brake drum, the shoes having toe and heel portions and an outer surface for car rying brake lining adapted to be urged into engagement with the brake drum, the shoes being arranged in heel to toe relation, means operatively connected to the shoes adjacent to their toe portions and adapted to urge the lining on the surface adjacent to the toe portions into engagement with the drum, a rst cam means positioned adjacent to the heel portion of each shoe, the heel portion of each shoe having a second cam means adapted to engage the rst cam means and urge the heel portion toward the drum when the shoe is urged toward the first cam means, whereby during rotation of the drum in one direction and engagement of the toe portions therewith the shoes will be urged through frictional engagement with the rotating drum toward the rst cam means, the second cam means engaging said rst cam means and urging their associated heel portions into engagement with the drum, stop means adjacent to the toe portion of the secondary shoe for limiting 18 movement lof the secondary shoe in the other direction, the toe portion of the primary shoe acting on the heel portion of the secondary shoe during such movement of the drum in the other direction to urge the heel portion of the secondary shoe into engagement mith the drum.

JAMES J. CARNES.

REFERENCES CITED The following references are of record in the le of this patent:

UNITED STATES PATENTS 

